Matsumiya Tomoh, Prescott Stephen M, Stafforini Diana M
Huntsman Cancer Institute, University of Utah, Salt Lake City, Utah 84112, USA.
J Immunol. 2007 Oct 1;179(7):4542-9. doi: 10.4049/jimmunol.179.7.4542.
Retinoic acid inducible gene-I (RIG-I) plays important roles during innate immune responses to viral infections and as a transducer of cytokine signaling. The mechanisms of RIG-I up-regulation after cytokine stimulation are incompletely characterized. It was previously reported that IFN-gamma induces the expression of RIG-I in endothelial cells. In this study, we characterized the mechanism of type I IFN-mediated up-regulation of RIG-I in HeLa cells and found that, in addition to type I IFN, TNF-alpha, a cytokine that regulates innate immune responses, induced expression of RIG-I. To investigate whether TNF-alpha- and type I IFN-mediated up-regulations of RIG-I were causally related, we studied the kinetics of these responses. Our results were consistent with a model in which TNF-alpha functioned upstream of type I IFNs. The ability of TNF-alpha to up-regulate RIG-I required protein synthesis, expression of functional type I IFNRs, and STAT1 signaling. We also found that IFN-epsilon was the only IFN isoform expressed constitutively in HeLa cells and that its expression was up-regulated in response to stimulation with TNF-alpha. The mechanism of up-regulation involved stabilization of IFN-epsilon mRNA in the absence of transcriptional activation. Silencing the expression of IFN-epsilon attenuated STAT1 expression and phosphorylation and inhibited RIG-I expression, providing additional support for the participation of IFN-epsilon upstream of STAT1. Our findings support a sequential mechanism whereby TNF-alpha leads to stabilization of IFN-epsilon mRNA, increased IFN-epsilon synthesis, engagement of type I IFNRs, increased STAT1 expression and phosphorylation, and up-regulation of RIG-I expression. These findings have implications for our understanding of the immune responses that follow cytokine stimulation.
维甲酸诱导基因I(RIG-I)在对病毒感染的先天免疫反应中以及作为细胞因子信号转导器发挥着重要作用。细胞因子刺激后RIG-I上调的机制尚未完全阐明。此前有报道称,干扰素-γ可诱导内皮细胞中RIG-I的表达。在本研究中,我们阐述了I型干扰素介导的HeLa细胞中RIG-I上调的机制,发现除了I型干扰素外,调节先天免疫反应的细胞因子肿瘤坏死因子-α(TNF-α)也可诱导RIG-I的表达。为了研究TNF-α和I型干扰素介导的RIG-I上调是否存在因果关系,我们研究了这些反应的动力学。我们的结果与TNF-α在I型干扰素上游起作用的模型一致。TNF-α上调RIG-I的能力需要蛋白质合成、功能性I型干扰素受体的表达以及信号转导和转录激活因子1(STAT1)信号传导。我们还发现,干扰素-ε是HeLa细胞中唯一组成性表达的干扰素亚型,其表达在TNF-α刺激后上调。上调机制涉及在无转录激活的情况下干扰素-ε mRNA的稳定。沉默干扰素-ε的表达会减弱STAT1的表达和磷酸化,并抑制RIG-I的表达,这为干扰素-ε在STAT1上游发挥作用提供了额外支持。我们的研究结果支持一种顺序机制,即TNF-α导致干扰素-ε mRNA稳定、干扰素-ε合成增加、I型干扰素受体结合、STAT1表达和磷酸化增加以及RIG-I表达上调。这些发现对我们理解细胞因子刺激后的免疫反应具有重要意义。
